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In the following code (copied from Java Concurrency in Practice Chapter 2, section 2.5, Listing 2.8):

@ThreadSafe
public class CachedFactorizer implements Servlet {
    @GuardedBy("this") private BigInteger lastNumber;
    @GuardedBy("this") private BigInteger[] lastFactors;
    @GuardedBy("this") private long hits;
    @GuardedBy("this") private long cacheHits;

    public synchronized long getHits() { return hits; }

    public synchronized double getCacheHitRatio() {
        return (double) cacheHits / (double) hits;
    }

    public void service(ServletRequest req, ServletResponse resp) {
        BigInteger i = extractFromRequest(req);
        BigInteger[] factors = null;
        synchronized (this) {
            ++hits;
            if (i.equals(lastNumber)) {
                ++cacheHits;
                factors = lastFactors.clone(); // questionable line here
            }
        }
        if (factors == null) {
            factors = factor(i);
            synchronized (this) {
                lastNumber = i;
                lastFactors = factors.clone(); // and here
            }
        }
        encodeIntoResponse(resp, factors);
    }
}

why the factors, lastFactors arrays are cloned? Can't it be simply written as factors = lastFactors; and lastFactors = factors;? Just because the factors is a local variable and it is then passed to encodeIntoResponse, which can modify it?

Hope the question is clear. Thanks.

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3 Answers

Answer guessed from basics : You need to clone if you are planning to modify the Object, and you don't want to modify orginal object, in your case factors = lastFactors.clone(); is done because you donnot want lastFactors to be modified instead you clone it and send it to encodeIntoResponse(resp, factors); which may contain code to modify it.

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Thank you. Correct me if I'm wrong, but there is no code that modifies the array held in lastFactor or factor. So no concurrent modifications of the array held in lastFactors can take place. Synchronization is needed to make assignments to lastNumber,lastFactors atomic, but not to prevent the concurrent modifications of lastFactors. So the question is open (to me). –  khachik Aug 20 '12 at 8:49
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This is called defensive copying. Arrays are objects as any other, so

 factors = lastFactors

would assing a reference of lastFactos to factors and vice versa. So anyone can overwrite your state outside your control. As an example:

private void filterAndRemove(BigInteger[] arr);
private void encodeIntoResponse(..., BigInteger[] factors) {
   filterAndRemove(factors);
}

With our theoretical assignment filterAndRemove would also affect the original lastFactorials.

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The only reason to clone arrays is to block (concurrent in this case) modification of the array elements. However, that doesn't look possible in this case assuming no other methods modify the array referenced by lastFactors which makes sense given the example. The arrays stored in factors and lastFactors are all created and returned in a complete state by factor, and their references are assigned inside synchronized blocks which will cause them to be safely published.

Unless encodeIntoResponse modifies its factors argument's elements, it looks to me like the calls to clone are unnecessary.

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